Method of removing stains from structural surface

ABSTRACT

A method for removing a stain from a surface of a structure which includes the steps of spraying an aggregating agent comprising a cationic linear organic polymer onto the surface of such structure having a stain produced thereon, dissociating the stain particles by use of Coulomb force f generated between the stain particles and the aggregating agent, displacing slightly the stain particles along the surface of the structure to cause peeling thereof from the surface to be cleaned, and simultaneously, aggregating the same for cleaning. Another embodiment includes maintaining water permeability of a road by easily eliminating a stain adhering to the surfaces of granular aggregate particles forming a drainage-type pavement layer of a road without the use of various mechanical tools. Other embodiments include the steps of depositing an aggregating agent for soil improvement comprising a cationic organic polymer onto a drainage-type pavement layer of a road, and eliminating the aggregated stain particles adhering to the surfaces of the granular aggregate particles constituting the drainage-type pavement layer and settling in voids.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a method of maintenance of an ordinarystructure such as a house, a bridge, a gravestone, a fence, a guard railor a building through cleaning of a stain caused by molds and dustadhering to the surface thereof.

More particularly, the present invention relates to a method ofmaintenance through cleaning of a surface of a wooden outer wall, a woodblock, a stone-built construction, a concrete structure, a tile, aslate, a glass plate, a roofing tile, plastics, mortar, an steel plate,etc. constituting the above-mentioned various structures.

Further, the invention relates to a method of maintenance of a structuresuch as a road or a road tunnel through improvement of permeability ofrainwater falling onto a motorway for traffic of various motor vehiclesand onto a footway for passage of general pedestrians, through cleaninga stain adhering to the road surface, etc.

More specifically, the invention relates to a method of maintenance forconstantly keeping water permeability and drainage on a satisfactorylevel through prevention of frost of rainwater having entered voids of aporous material forming the surface course of a permeably paved road, orthrough removal of clogging caused by fine dust occurring from wear oftires of a running automobile or sand and dust contained in the air,coming into voids of pavement formed by a porous material.

2. Description of the Related Art

It has been the conventional practice of maintenance of a structure suchas a building and a paved road to spray an organic solvent or an organicchemical detrimental to human health onto a stain on the surface of asurface to be cleaned, or polish or grind the same with a mechanicalcleaning tool by a cleaning operator.

This method of maintenance, requiring a long period of time from thestart of spraying of the organic solvent or the organic chemical, orfrom the start of polishing or grinding until the end of cleaning, islow in efficiency. Further, side effects and an offensive odor of thesolvent or the chemical, and scattering of fine dust may result indeterioration of sanitary environments not only for cleaning operators,but also for inhabitants living near the site or for flora and fauna.

As a result, the cleaning operators, the inhabitants in the neighborhoodof the site, and flora and fauna are exposed to a serious risk caused bythe organic solvent, the organic chemical and the mechanical tools.

Maintenance such as cleaning of a permeable road or a drainage-type roadhas conventionally been accomplished mechanically by use of variousmechanical cleaning devices such as a sweeping truck, a high-pressurecleaner, a brush and a vacuum truck to remove a stain adhering to theroad surface.

For the purpose of preventing frost of rainwater staying on the roadsurface and rainwater coming into voids of the surface course thereof inwinter, it is the common practice to sprinkle an aqueous solution of oneor more salts selected from calcium chloride, magnesium chloride andsodium chloride in large quantities onto the road surface for thawing.

An object of the present invention is to improve sanitary environmentwithout exerting an adverse effect on health of cleaning operators andinhabitants living near the site while avoiding inefficient cleaningoperation including spraying of an organic chemical detrimental to humanhealth and polishing with a mechanical cleaning tool employed in theconventional cleaning method.

Another object of the invention is to permit avoidance of direct touchof hands with the dirt or of a difficult or dangerous work, hated bycleaning operators.

Still another object of the invention is to avoid the necessity ofmechanical cleaning tools as compared with the conventional mechanicalcleaning of a road with various mechanical cleaning tools.

A further object of the invention is to prevent an aqueous solution ofthe salts as mentioned above from causing a salt damage to runningvehicles, a river, a house or a plant near the road as compared with themethod of maintenance of sprinkling the solution of the aforementionedsalts in large quantities onto the road surface.

SUMMARY OF THE INVENTION

The method of maintenance of a structure including a building of thepresent invention comprises the steps of spraying an aggregating agentfor soil improvement comprising a cationic linear organic polymer inmixture with water and a higher-alcoholic surfactant onto a stain on asurface to be cleaned, thereby displacing particles forming the stainalong the surface to be cleaned by the use of Coulomb force actingbetween the particles and the aggregating agent to form aggregatedparticles.

The method of maintenance of a structure such as a drainage-type pavedroad of the present invention comprises the steps of applying ordepositing an aggregating agent for soil improvement comprising acationic linear organic polymer in mixture with water and ahigher-alcoholic surfactant onto the surface of a road having a stainadhering thereto, and displacing the stain along the surface of thestructure such as the road by the use of Coulomb force acting betweenparticles forming the stain adhering to the road and particles formingthe aggregating agent, i.e., forming aggregated particles throughsliding to ensure easy peeling from the road surface or the granularaggregate.

These aspects of the present invention will be more clearly understoodfrom the following description made with reference to the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a longitudinal sectional view illustrating the method ofmaintenance of the present invention;

FIG. 2 is an enlarged view of a part of FIG. 1;

FIG. 3 is a view illustrating another state of the part shown in FIG. 2;

FIG. 4 is a view illustrating another state of the part shown in FIG. 3;

FIG. 5 is a view illustrating another state of the part shown in FIG. 4;

FIG. 6 is a view illustrating another state of the part shown in FIG. 1;

FIG. 7 is a rear view illustrating an embodiment of the invention;

FIG. 8 is a left side view of FIG. 7;

FIG. 9 is a side view illustrating an embodiment other than FIG. 8;

FIG. 10 is an enlarged sectional view of FIG. 9 cut along the line X—X;

FIG. 11 is a sectional view illustrating another state of the part shownin FIG. 10;

FIG. 12 is an enlarged sectional view of FIG. 11 cut along the lineXII—XII;

FIG. 13 is a sectional view illustrating another state of the part shownin FIG. 12;

FIG. 14 is a sectional view illustrating another state of the part shownin FIG. 13; and

FIG. 15 represents a sectional view of the part shown in FIG. 11 in thestate shown in FIG. 14 in the left half, and a sectional view in anotherstate in the right half.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

A method of maintenance of a structure 1 suitable for applying thepresent invention comprises the steps of spraying an aggregating agent 4for soil improvement comprising a cationic linear organic polymer in anaqueous solution onto a stain 3 caused by molds and dust adhering to asurface to be cleaned 2, and forming aggregated particles 6 bydisplacing particles of the stain 3 by about 1 to 5 mm (Δx) on thesurface to be cleaned 2 by the use of Coulomb force f acting between theaggregating agent 4 having positive charge and the particles of thestain 3 having negative charge. The displacement Δx causes peeling ofthe stain 3 particles from the surface to be cleaned 2, which are blownoff by the spraying force of the cationic aggregating agent 4 sprayedfrom a spray nozzle 8.

As shown in FIG. 2, the aggregating agent 4 having positive chargecomprising a cationic linear organic polymer in the form of a 1,000aqueous solution is sprayed in the arrow A4 direction onto the surfaceto be cleaned 2 having the stain 3 of negative charge adhering theretoto deposit the same onto the surface to be cleaned 2. Coulomb force facts between the negative charge particles forming the stain 3 and theaggregating agent 4 as shown in FIG. 3, and a sucking force isgenerated.

The stain 3 particles having negative charge are consequently suckedalong the surface to be cleaned 2 toward the aggregating agent 4 havingpositive charge.

Under the effect of this sucking force, the particles 3 are slightlydisplaced by Δx on the surface to be cleaned 2 as shown in FIG. 4 andcome into contact with the aggregating agent 4 having positive chargewhile being peeled off from the surface to be cleaned 2, thusinstantaneously form aggregated particles 6 as shown in FIGS. 4 and 5.

When further cleaning is required thereafter, a pressure applied water 7in the form of an eddy flow is sprayed onto the surface to be cleaned 2having the aggregated particles 6 formed thereon, in the arrow A7direction as shown in FIG. 6 to wash off the aggregated particles 6 inthe arrow A6 direction.

According to the present invention as described above, the operator canperform cleaning rapidly with an agreeable operability at a low cost,because it is possible to carry out cleaning by spraying the aggregatingagent for soil which permits operation from a remote position and doesnot cause deterioration of the surrounding environment, safely withoutusing an organic solvent or an organic chemical or without the need ofconducting a manual wiping operation by the use of a polishing machinedisliked by operators.

EXAMPLE 1

The following aggregating agent for soil improvement comprising acationic linear organic polymer dissolved in an aqueous solution of asurfactant was sprayed at a rate of 5 to 7 liters per minute for aboutten minutes onto a stain 3 comprising molds and dust on a surface of awooden outer wall having an area of 40 m² composing a structure 1. Therewas obtained a result of cleaning equal to a conventional cleaningcarried out by three operators for 1.5 days through four runs ofcleaning.

Further, no phenomenon of a nappy surface of the wooden outer wall wasobserved.

Aggregating agent (Product name: EB-A) (made by Hayashi Kagaku KogyoCo., Ltd.)

Feature

1: Having positive charge; reacting instantaneously with particlesforming soil of negative surface charge; and aggregated into aggregatedparticles;

2: A chain-shaped organic polymer having a long molecular length;bonding by charge, further linked, and crosslinked to form a steric netstructure;

3: Causing agglutination of fine particles by acting on sand andaggregation of soil and sand as a whole, thus increasing erosionresistance of the surface;

4: Improving water retainability and gas permeability throughaggregation of soil in a chemically neutral environment.

Main constituents: A composite compound of magnesium salt ofdimethylaminoethyl acrylate-methacrylate copolymer andpolyethyleneimine.

Viscosity: 3000-9000 CP (at 25° C.)

pH: 5-7

Solubility: Capable of being mixed with water at any ratio

Exterior view: Almost transparent colorless viscous liquid

Surfactant (Product name: NEWOSMACK) (made by Hayashi Kagaku Kogyo Co.,Ltd.)

A method of maintenance of a structure such as a drainage-type pavedroad suitable for application of the invention will now be describedwith reference to FIGS. 7-15.

As shown in FIGS. 7 and 8, an aggregating agent 13 for soil improvementcomprising a cationic linear organic polymer in the form of an aqueoussolution was spray-deposited from a spray nozzle 23 in the arrow A13direction onto the upper surface of a drainage-type pavement layer 12forming a base course of a road 11, and a stain 15 adhering to thesurface of the drainage-type pavement layer 12 is aggregated underelectrostatic action of the aggregating agent 13.

This state will be described with reference to the enlarged views FIGS.10 to 14. The road 11 comprises a non-permeable pavement layer 16 andthe drainage-type pavement layer 12 formed thereon. The drainage-typepavement layer 12 forms voids 18 between a number of granular aggregateparticles 17.

In this state immediately after execution of a new road as describedabove, no stain such as dust adheres to the surfaces of the granularaggregate particles 17 as shown in FIG. 10, and no clogging takes placein the voids 18. Rainwater 19 having fallen onto the road thereforeflows in the arrow A19 direction through the voids 18 between thegranular aggregate particles 17, further flows in the arrow A16direction along the upper surface 16 a of the non-permeable pavementlayer 16 under the effect of a road gradient inclining downward from amedial strip 30 toward a gutter 20, and flows into the gutter 20.

However, after the lapse of a certain period of time from running ofautomobiles, etc. on the road 11, powder particles occurring from wearof tires and sand and dust adhere to the surface of the drainage-typepavement layer 12, or enter the voids 18 and adhere to the surface ofthe granular aggregate particles 17 as shown in FIG. 11, thus causingclogging of the voids 18 of the drainage-type pavement layer 12. As aresult, rainwater does not flow into the gutter 20, but overflows on theroad surface or is frozen in winter and may impair smooth traffic ofautomobiles.

In the invention, as described above, the aqueous solution of theaggregating agent 13 is sprayed onto the surface of the drainage-typepavement layer 12 of the road 11 as shown in FIG. 11. This state isillustrated in the enlarged views given in FIGS. 12 to 14. When cationicparticles 13 a composing the aggregating agent 13 having cationic chargeare sprayed onto anionic particles 15 a composing the stain 15 adheringto the surfaces of the granular aggregate particles 17 as shown in FIG.12, Coulomb force f acts between the cationic particles 13 a and theneighboring anionic particles 15 a, thus causing a slight displacementΔx in direction to cationic particles 13 a. This displacement Δx reducesthe adhering force of the anionic particles 15 a to the surfaces of thegranular aggregate particles 17, instantaneously forming aggregatedparticles 21 as shown in FIG. 14.

In the meantime, the cationic particles 15 b forming the stain 15 areattracted by the charge of the anionic particles 15 a composing theaggregated particles 21, adhere to the aggregated particles 21 to causecoarsening thereof.

When rainwater or the like drops onto the surface of the drainage-typepavement layer 12 in this state, the aggregated particles 21 peel offfrom the surfaces of the granular aggregate particles 17, flow into thevoids 18 as shown in the left half of FIG. 15, and finally flow outalong the upper surface of the non-permeable pavement layer 16 towardthe gutter 20.

As a result, the stain 15 is eliminated from the voids 18 in thedrainage-type pavement layer 12 thereafter. Rainwater no more overflowson the surface of the road 11, and no more is it frozen in winter, thuseliminating the risk of impairing smooth traffic of automobiles.

In the invention, furthermore, the surface of the road may be suckedwith a vacuum truck or the like to remove the aggregated particles 21from the voids 18, in place of pouring the aggregated particles 21 intothe gutter 20 by use of rainwater or by water supply onto the road 11.

Even when rainwater 19 remains in the voids 18 as shown in the righthalf of FIG. 15, freezing can be prevented by the action of calciumchloride 14 by previously spraying a mixture of the aggregating agent 13and calcium chloride 14 upon spraying the aggregating agent 13 onto theroad 11 as shown in FIG. 11.

Filthy water 22 containing the stain 15 having passed through the voids18 between the granular aggregate particles 17 and entered into thegutter 20 along the upper surface of the non-permeable pavement layer 16is sucked from a sucking port 28 of a sucking pipe 27 of a pump 26mounted on a road control truck 25 as shown in FIGS. 7 and 8, andseparated by a separator not shown on the road control truck 25. Theremained wash water is stored in a water tank 24 serving also as aseparator-type tank for reuse for an aqueous solution of the aggregatingagent.

Even when detrimental substances toxic to human health contained inexhaust gases from ordinary automobiles running on the road arecontained in the stain 15, in this case, it is possible to separate onlythe stain 15 from the wash water, thus permitting minimization of thetoxic substances, and this is favorable for subsequent treatments.

According to the invention as described above, even when the stain 15entering the voids 18 formed in the drainage-type pavement layer 12causes clogging, it is possible to restore draining property by easilyremoving the stain under electrostatic effect without the need to usevarious mechanical tools as in the conventional art.

It is hence possible to prevent an automobile accident from occurringfrom splash of water remaining on the surface of the drainage-typepavement layer 12 or slippage on the road surface caused by freezing.

The effect of preventing freezing can further be improved by previouslymixing salts or an aqueous solution of salts with the aqueous solutionof the aggregating agent and the surfactant.

Even detrimental substances are contained in the stain 15 adhering to aroad, a building, etc., the detrimental substances can be madeaggregated particles, easily washed off with wash water, and thusseparated and isolated from the wash water, thus permitting preventionof the risk to human health caused by the detrimental substances.

For application of the invention, as shown as another example in FIG. 9,it is also possible to suck aggregated particles 21 and wash waterremaining on the surface of drainage-type pavement layer 12 and in voids18 formed therein immediately after spraying an aqueous solution of theaggregating agent 13, by use of a vacuum truck 25 a having a vacuum pump26 a, a sucking pipe 27 a and a sucking port 18 a, for reuse as washwater.

Example of Experiment

A water permeability test was carried out on a plane area of 10 m² (1m×10 m) on a road having a sectional structure shown in FIG. 10,executed in June, 1990 prior to filing the present application. Becauseof the lapse of a long period of time since execution, the plane surfaceof the road executed for the experiment had voids clogged off by stain.With a quantity of rain of 5 to 10 mm/hour, rain water was accumulatedon the road surface, and a water flow was produced on the surface.

An aqueous solution of the above-mentioned aggregating agent (productname: EB-A) in an amount of 20 lit. was sprinkled onto the plane surfaceof 10 m² (1 m×10 m) on the aforementioned road. In this case, even witha quantity of rain of 10 to 20 mm/hour, rainwater did not stay on theroad surface, penetrating into the road, and no water flow was produced.

Further, a similar aggregating agent in an amount of 2 to 3 lit./m² wassprinkled prior to rain fall onto another plane surface of 10 m² (1 m×10m) on the same road and left as it was. Upon rainfall in the samequantity of rain, the same result was obtained.

What is claimed is:
 1. A method of removing stain particles from asurface of a structure selected from the group consisting of a road, abridge, a gravestone, a fence, a guardrail and a building, the methodcomprising the steps of spraying an aggregating agent comprising acationic linear organic polymer on stain particles present on thesurface of said structure, forming aggregated particles on the surfaceof said structure, said aggregated particles comprising said stainparticles and said aggregating agent, and removing the aggregatedparticles from the surface of said structure.
 2. The method of claim 1,wherein the stain particles are displaced from the surface of saidstructure by said spraying of the aggregating agent onto the surface ofsaid structure.
 3. The method of claim 1, wherein the aggregatedparticles are removed from the surface of the structure by sprayingwater onto the surface of the structure.
 4. The method of claim 1,wherein the aggregated particles are removed from the surface of thestructure by allowing rainwater to drop onto the surface of thestructure.
 5. The method of claim 1, wherein the aggregated particlesare removed from the surface of the structure by vacuuming the surfaceof the structure.
 6. The method of claim 1, wherein the surface of thestructure is comprised of a material selected from the group consistingof wood, stone, concrete, tile, slate, glass, plastic, mortar, andsteel.
 7. The method of claim 1, wherein the aggregating agent comprisesa composite compound of a magnesium salt of dimethylaminoethylacrylate-methacrylate copolymer and polyethyleneimine.
 8. The method ofclaim 1, wherein the aggregating agent further comprises an alcoholicsurfactant.
 9. A method of removing stain particles from a surface of astructure selected from the group consisting of a road, a bridge, agravestone, a fence, a guardrail and a building, the method comprisingthe steps of spraying a mixture of an aggregating agent comprising acationic linear organic polymer and an alcoholic surfactant on stainparticles present on the surface of said structure, displacing saidstain particles along the surface of said structure by the use of aCoulomb force between each of said stain particles and said aggregatingagent, forming aggregated particles on said surface of said structure,said aggregated particles comprising said stain particles and saidaggregating agent, and removing said aggregated particles from thesurface of said structure.
 10. A method of removing stain particles froma surface of a structure selected from the group consisting of a road, abridge, a gravestone, a fence, a guardrail and a building, the methodcomprising the steps of: spraying an aggregating agent on stainparticles present on the surface of said structure, said aggregatingagent including a composite compound of a magnesium salt ofdimethylaminoethyl acrylate-methacrylate copolymer andpolyethyleneimine; forming aggregated particles on said surface of saidstructure, said aggregated particles comprising said stain particles andsaid aggregating agent; and removing said aggregated particles from thesurface of said structure.